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AMSAT OSCAR-E and "Eagle". Presented by Richard M. Hambly (W2GPS). AMSAT Forum Hamvention 2002 Saturday, May 18, 2002, 08:15 - 09:45 EDT HARA Arena Complex, Room 1 Dayton, Ohio. AMSAT OSCAR-E, "Eagle", and ADCARS. AMSAT OSCAR‑E is a new LEO satellite from AMSAT-NA.
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AMSAT OSCAR-E and "Eagle" Presented by Richard M. Hambly (W2GPS) AMSAT Forum Hamvention 2002 Saturday, May 18, 2002, 08:15 - 09:45 EDT HARA Arena Complex, Room 1 Dayton, Ohio
AMSAT OSCAR-E, "Eagle", and ADCARS • AMSAT OSCAR‑E is a new LEO satellite from AMSAT-NA. • ADACRS is “Advanced Data Communications for the Amateur Radio Service” • “Eagle” is a new HEO satellite from AMSAT-NA.
AMSAT-NA is back in the satellite business! 12 years since AMSAT-NA built and launched the original Microsats, AO-16, DO-17, WO-18, and LO-19 in 1990. 8 years since AMRAD-sponsored AO-27 was launched in 1993. AMSAT OSCAR‑E is a new Low Earth Orbit (LEO) satellite AMSAT is returning to the practice of designating LEO satellites by sequential characters. Last done for AMSAT OSCAR‑D, which became AMSAT OSCAR‑8. Space and power are available for one or more optional payloads that will be provided by AMSAT volunteers. AMSAT OSCAR-E (AO-E)
AO-E Introduction • Microsat class spacecraft (~10 kg). • Five solid aluminum trays stacked to form a 9.5-inch cube structure. • Six solar panels on each side. • Antennas on top and bottom. • Similar to original Microsats • AO-16, DO-17, WO-18, LO-19 • Similar to the descendents of that legacy • IO-26, AO-27, MO-30, SO-41. Dick Daniels W4PUJ at SpaceQuest 28_Feb-2002
AO-E Block Diagram • Four VHF receivers • One Multi-Band Multi-Mode Rx • Two UHF transmitters • Six modems • Flight computer • RAM disk • Batteries • Battery charger and regulators • Wiring harness • RF cabling • RF switching and phasing networks • 56 channels of telemetry • Magnetic attitude control
Advanced Data Communications for the Amateur Radio Service (ADCARS) L-Band/S-Band Communications System Robust Telemetry Link GPS Receiver Active Magnetic Attitude Control Audio Recorder Experiment Low Frequency Receiver APRS PSK-31 Multi-band Receiver/Antenna High Efficiency Solar Arrays AO-E Space for Optional Payloads
AMSAT OSCAR-E (AO-E) Summary • Analog operation including FM voice. • Digital operation including high speed APRS. • Higher downlink power. • Multiple channels using two transmitters. • Can be configured for simultaneous voice and data. • Has a multi-band, multi-mode receiver. • Can be configured with geographically based personalities. • Has a true circular UHF antenna • Maintains its circularity over a wide range of squint angles. • Higher data rates on downlinks. • Advanced power management system. • Autonomous, self-healing, high efficiency. • Store and forward • Continuous monitoring and geographically defined data forwarding.
Launch Vehicle Has a significant impact on physical design. Orbit GTO is lowest cost vs. performance. Spin Axis Jansson – point at user at apogee. Johnson –perpendicular to plane of orbit. Solar Panels and Power Antennas Size and Weight Approx 50 kg, 50-60 cm. Propulsion Probably needed to raise perigee. May be needed for reentry. +Z +Y +X Project Eagle (Was Project JJ)AMSAT-NA’s New High Orbit Satellite
Advanced Data Communications for the Amateur Radio Service (ADCARS) Apply digital encoding techniques to improve communication links and bandwidth utilization. • Wide-band TDMA single frequency data link for multiple simultaneous users and modes. • voice, data, video, telemetry, etc. • S-band downlink, due to bandwidth requirements. • L-band uplink. • Optional signal regeneration. • Optional integration with on-board systems. • File transfer • Telemetry Channel capacity: where: C = channel capacity, bits/sec B = channel bandwidth, Hz S = signal power, W N = noise power, W • Data communication • MPEG recordings
